Beer Spoilage Micro Test Product Code: PM-02 Instructions For Use Introduction Beer spoilage caused by wild yeasts and bacteria is a major concern to both commercial and home brewers. Microbial spoilage not only affects the shelf life of beer but also has a significant impact on the brand value. Therefore, simultaneous detection of wild yeasts (Saccharomyces diastaticus, Brettanomyces) and bacteria (Lactic acid bacteria, Megasphaera and Pectinatus) causing beer spoilage is of utmost importance to brewers. The Beer Spoilage Micro Test kit was developed to rapidly detect major spoilage microorganisms within 2 hr directly from a spoiled beer sample or following a 2-8 hr enrichment step (recommended for clear beer). Intended Use This kit is intended for the detection of specific spoilage-causing yeasts and bacteria in beer. The test is intended for laboratory use only and should be performed by trained personnel. Kit Storage and Stability Store the PCR Buffer, Lysis Solution and Taq Beads at 2-8 C. Store the rest of the kit components at 2-2 C. The kit is stable until the expiration date indicated on the box if stored appropriately. IFU-PM-02 REV 3.1
Principle of the Test The Microbiologique Beer Spoilage Micro Test consists of two steps: a) concentration IAC by centrifugation or enrichment using media that enhances growth of target spoilage organisms and b) detection of the target spoilage organisms by polymerase chain Pectinatus Megasphaera Lactic acid bacteria reaction (PCR). To operate this kit, the Brettanomyces bruxellensis 3 sample is first subjected to a concentration Zygosaccharomyces 2 or an enrichment step followed by Saccharomyces diastaticus 1 amplification of specific genes in the target spoilage organisms. Primer probes unique to each spoilage organism are multiplexed and amplify the target genes. Application of the amplified product on a Lateral Flow (LF) strip results in hybridization of amplicons to complementary regions on the strip. In addition, the LF strip also contains a control line (IAC internal amplification control) to indicate the validity of both the PCR amplification and LF detection. Performance Characteristics Limit of Detection: 1-10 cells/ml Sample enrichment (Optional): 2-8 hr PCR operation and detection: 2 hr Cross-reactivity: Cross-reactivity was not observed in over 90 species of bacteria and fungi closely related to beer spoilage micro-organisms and commonly associated with food. Kit Components (2 tests) Lysis Solution (100 µl) Taq Bead (3 strips of 8 tubes) PCR Buffer (1. ml) Lateral Flow Strips (2 strips) Detection Reagent ( ml) Page: 2
Materials Required (but not Supplied) Pipettors: 1 ml, 200 µl, 10 µl Pipet tips with filter, sterile: 1 ml, 200 µl, 10 µl Sterile 1.-mL or 2-mL polypropylene conical tubes 0.2 ml thin-wall (PCR) tubes Microcentrifuge capable of 10,000 g Thermal cycler Lateral Flow Strip Reader (Optional) Vortex mixer Required for Direct Detection Protocol: Distilled water, sterile Required for Enrichment Protocol: Stomacher and 7 oz Whirld Pak bag OR 0 ml conical tube Beer Spoilage Enrichment Media Mix (Code B-112, Microbologique) Distilled water in appropriate-sized bottle for media preparation Magnetic stirrer and stir bar Autoclave Incubator, 30 C Protocol NOTE: Bring kit components to room temperature prior to PCR analysis. A. Preparation of samples Samples may be prepared for PCR analysis following the Enrichment Protocol (Section A1) or Direct Detection Protocol (Section A2) using a centrifugation step. A1. Enrichment Protocol (Recommended for clear beer samples) a. Preparation of Enrichment Media NOTE: Prepare sufficient amount of Enrichment Media for a 1:1 sample to Enrichment Media ratio. i. Add the appropriate amount of Beer Spoilage Enrichment Media Mix to a clean glass bottle containing distilled water and a stir bar. ii. Mix the contents briefly using a magnetic stirrer until dissolved. iii. Autoclave at 121 C for 1 min. Allow the media to cool to room temperature prior to use. Page: 3
b. Enrichment step i. Aseptically mix Enrichment Media with the beer sample at 1:1 ratio by carrying out either of the following procedures: --Remove 10 ml of beer from the 300 ml beer bottle and aseptically replace with 10 ml of Enrichment Media. OR --Transfer 2 ml of beer sample to a 0 ml conical tube or WhirlPak and aseptically add 2 ml of Enrichment Media. ii. Close the containers securely, mix well by inverting the tube or stomaching the WhirlPak for at least 30 sec and incubate at 30 C for 2 hr. NOTE: Incubate for 8 hr to enrich for yeasts and Pediococcus damnosus (one of the Lactic acid bacteria targets). iii. After incubation period, proceed to Step B1 for sample lysis. A2. Direct Detection Protocol (Centrifugation)-Recommended for grossly contaminated samples a. Mix sample well by gentle swirling to avoid frothing. b. Using a 1 ml pipettor, transfer 1 ml of the sample into a sterile 1. or 2 ml polypropylene conical tube and cap tightly. c. Place capped tubes in a microfuge and ensure that they are balanced. d. Centrifuge at 10,000 g for min. e. Using a 1 ml pipettor and a fresh pipet tip, pipet out supernatant with care to avoid disturbing the pellet. f. Using a 200 µl pipettor, re-suspend pellet in 0 µl of sterile distilled water. Mix well by vortexing. NOTE: The volume of distilled water may be increased for a larger pellet but should not exceed 100 µl. g. Prepare the Lysis Buffer by transfering 0 µl of PCR Buffer into a 0.2 ml PCR tube, then add 2 µl of Lysis Solution to the buffer. h. Transfer 2 µl of cell suspension from Step A2.d. into the 0.2 ml PCR tube containing the Lysis Buffer. i. Vortex briefly and proceed to Step B1.e. for sample lysis. Page:
B. PCR analysis B1. Sample lysis a. Swirl the PCR Buffer bottle to ensure a homogenous solution prior to use. Light precipitation may be observed but this does not affect the functionality of the PCR buffer. b. For enrichment sample: Aliquot 1 ml of enrichment sample in a sterile 2 ml polypropylene conical tube and centrifuge at 10,000 g for min. c. Pipet out carefully the supernatant and re-suspend the pellet using 0 µl of the PCR buffer. Mix well. NOTE: The volume of PCR Buffer may be increased for a larger pellet but should not exceed 10 µl. d. Transfer 0 µl of the mixture into a 0.2 ml PCR tube then add 2 µl of Lysis Solution to the mixture. e. Incubate tube in a thermal cycler using the pre-pcr Lysis conditions (Inc 37) below: 1 cycle: 37 C, 10 min 99 C, min C ( ) f. After the cycle, collect the lysed sample for PCR amplification in Step B2. B2. PCR amplification a. Transfer 2 µl of lysed sample to the Taq Bead tube. b. Briefly vortex the tube, pulse-centrifuge and transfer to a thermal cycler. Perform amplification following the PCR cycling conditions below: 1 cycle: 9 C, min 3 cycles: 9 C, 10 sec, C, 30 sec, 72 C, 10 sec Final: C, B3. Amplicon detection using DNA LF strip a. Briefly vortex the PCR tube containing the amplicon (PCR product). b. Take 10 µl of amplicon and mix with 120 µl of Detection Reagent in a sterile 1. ml polypropylene conical tube. Apply 120 µl of the mixture onto the Lateral Flow Strip sample pad. c. Read results visually at 1-20 min by aligning your Lateral Flow Strip next to the Reference Lateral Flow Strip on page 8 or using a LF Strip reader. Page:
Interpretation of the Test The test is valid and further interpretations are made only if the top line representing the IAC (internal amplification control) appears on the LF strip. As graphically shown below*, a series of lines may appear depending on the type of spoilage organism(s) present in the sample. For example, if Line 1 and Line appear (+ IAC), then the sample can be reported for the presence of Saccharomyces diastaticus and Megasphaera. However, if only Line 1 and Line appear, then the test is invalid and needs to be repeated. IAC Pectinatus IAC Megasphaera Lactic acid bacteria Brettanomyces 3 3 3 Zygosaccharomyces Saccharomyces diastaticus 2 1 2 2 1 1 All organisms detected S. diastaticus and Megasphaera detected Test invalid * Not drawn to scale Limitations As with all assays requiring PCR amplification, the presence of inhibitors in the sample should be considered in the interpretation of test results as this may lead to inaccurate or invalid results. The test kit has been validated for common types of beer such as ale and lager, thus validation is recommended to verify suitability for use with other types of beer. Questions regarding sample suitablility as well as questions concerning the LF strip reader that is recommended for use in recording test results may be addressed to customer support. Page:
Precautions For Laboratory use only. The test should be performed by trained personnel and may be used as part of quality control testing of brewers for their products. Operation of the test should be performed using Good Laboratory Practices and using personal protective equipment including gloves, lab coat and safety glasses. Strict adherence to the assay protocol is mandatory to ensure proper operation. Do not mix kit components with other kits or kit lot numbers. To limit contamination, avoid creating aerosols or aspirating when pipetting. SDS information can be obtained from your distributor or by emailing: tech@ microbiologique.com. Customer Support For additional information on using this test kit, please contact: 1.888.998.11 (USA & Canada) +1.20.2.012 (International) Email: tech@microbiologique.com Disclaimer MICROBIOLOGIQUE, INC. MAKES NO CLAIMS, REPRESENTATIONS OR WARRANTIES INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, EITHER EXPRESSED OR IMPLIED, RELATED TO THE PERFORMANCE OF THIS PRODUCT. BUYER S SOLE REMEDY FOR DEFECTIVE MATERIALS IS REPLACEMENT. IN NO EVENT SHALL MICROBIOLOGIQUE BE LIABLE FOR ANY DIRECT, INDIRECT, PUNITIVE, INCIDENTAL, SPECIAL CONSEQUENTIAL DAMAGES OF ANY NATURE WHATSOEVER OR EXPENSES ARISING OUT OF OR CONNECTED WITH THE USE OR MISUSE OF THIS PRODUCT. Manufactured by Microbiologique Inc. 831 Lake City Way NE Seattle, WA 9811 USA Page: 7
Reference Strip IAC Align strip with IAC line. 3 2 1 Page: 8